Macular Structure–Function Relationships of All Retinal Layers in Primary Open-Angle Glaucoma Assessed by Microperimetry and 8 × 8 Posterior Pole Analysis of OCT

Purpose<b>:</b> The aim of this study is too correlate the sensitivity and thickness values of intraretinal layers at macula in healthy eyes and primary open-angle glaucoma (POAG) eyes. Methods<b>:</b> The thickness of different intraretinal segmentations was estimated by mea...

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Autores principales: Jose Javier Garcia-Medina, Maurilia Rotolo, Elena Rubio-Velazquez, Maria Dolores Pinazo-Duran, Monica del-Rio-Vellosillo
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
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Acceso en línea:https://doaj.org/article/383f95c4f65544b2a9e790129cf124ac
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spelling oai:doaj.org-article:383f95c4f65544b2a9e790129cf124ac2021-11-11T17:38:22ZMacular Structure–Function Relationships of All Retinal Layers in Primary Open-Angle Glaucoma Assessed by Microperimetry and 8 × 8 Posterior Pole Analysis of OCT10.3390/jcm102150092077-0383https://doaj.org/article/383f95c4f65544b2a9e790129cf124ac2021-10-01T00:00:00Zhttps://www.mdpi.com/2077-0383/10/21/5009https://doaj.org/toc/2077-0383Purpose<b>:</b> The aim of this study is too correlate the sensitivity and thickness values of intraretinal layers at macula in healthy eyes and primary open-angle glaucoma (POAG) eyes. Methods<b>:</b> The thickness of different intraretinal segmentations was estimated by means of optical coherence tomography (OCT) Spectralis (Heidelberg, Engineering, Inc., Heidelberg, Germany) with the posterior pole analysis program 8 × 8 in 91 eyes from 91 patients (60 with glaucoma and 31 healthy patients). Macular sensitivity was also measured with an MP-1 microperimeter (Nidek Instruments, Inc Padova, Italy) with a customized, 36-stimulus pattern adjusted to an anatomical correspondence with the OCT grid. Correlations were calculated by using Spearman’s rho and the results were represented in color maps. Results<b>:</b> Significant structure–function correlations were much more frequent in the glaucoma group than in control group. In general terms, associations were positive for inner retinal layers but negative correlations were also found for the inner nuclear layer and outer retinal layer in glaucoma. Conclusions: In general terms, significant structure–function correlations for different intraretinal layers are higher and wider in POAG eyes than in healthy eyes. Inner and outer retinal layers behave differently in terms of the structure–function relationship in POAG as assessed by microperimetry and OCT.Jose Javier Garcia-MedinaMaurilia RotoloElena Rubio-VelazquezMaria Dolores Pinazo-DuranMonica del-Rio-VellosilloMDPI AGarticlemicroperimetryOCTglaucomamaculastructurefunctionMedicineRENJournal of Clinical Medicine, Vol 10, Iss 5009, p 5009 (2021)
institution DOAJ
collection DOAJ
language EN
topic microperimetry
OCT
glaucoma
macula
structure
function
Medicine
R
spellingShingle microperimetry
OCT
glaucoma
macula
structure
function
Medicine
R
Jose Javier Garcia-Medina
Maurilia Rotolo
Elena Rubio-Velazquez
Maria Dolores Pinazo-Duran
Monica del-Rio-Vellosillo
Macular Structure–Function Relationships of All Retinal Layers in Primary Open-Angle Glaucoma Assessed by Microperimetry and 8 × 8 Posterior Pole Analysis of OCT
description Purpose<b>:</b> The aim of this study is too correlate the sensitivity and thickness values of intraretinal layers at macula in healthy eyes and primary open-angle glaucoma (POAG) eyes. Methods<b>:</b> The thickness of different intraretinal segmentations was estimated by means of optical coherence tomography (OCT) Spectralis (Heidelberg, Engineering, Inc., Heidelberg, Germany) with the posterior pole analysis program 8 × 8 in 91 eyes from 91 patients (60 with glaucoma and 31 healthy patients). Macular sensitivity was also measured with an MP-1 microperimeter (Nidek Instruments, Inc Padova, Italy) with a customized, 36-stimulus pattern adjusted to an anatomical correspondence with the OCT grid. Correlations were calculated by using Spearman’s rho and the results were represented in color maps. Results<b>:</b> Significant structure–function correlations were much more frequent in the glaucoma group than in control group. In general terms, associations were positive for inner retinal layers but negative correlations were also found for the inner nuclear layer and outer retinal layer in glaucoma. Conclusions: In general terms, significant structure–function correlations for different intraretinal layers are higher and wider in POAG eyes than in healthy eyes. Inner and outer retinal layers behave differently in terms of the structure–function relationship in POAG as assessed by microperimetry and OCT.
format article
author Jose Javier Garcia-Medina
Maurilia Rotolo
Elena Rubio-Velazquez
Maria Dolores Pinazo-Duran
Monica del-Rio-Vellosillo
author_facet Jose Javier Garcia-Medina
Maurilia Rotolo
Elena Rubio-Velazquez
Maria Dolores Pinazo-Duran
Monica del-Rio-Vellosillo
author_sort Jose Javier Garcia-Medina
title Macular Structure–Function Relationships of All Retinal Layers in Primary Open-Angle Glaucoma Assessed by Microperimetry and 8 × 8 Posterior Pole Analysis of OCT
title_short Macular Structure–Function Relationships of All Retinal Layers in Primary Open-Angle Glaucoma Assessed by Microperimetry and 8 × 8 Posterior Pole Analysis of OCT
title_full Macular Structure–Function Relationships of All Retinal Layers in Primary Open-Angle Glaucoma Assessed by Microperimetry and 8 × 8 Posterior Pole Analysis of OCT
title_fullStr Macular Structure–Function Relationships of All Retinal Layers in Primary Open-Angle Glaucoma Assessed by Microperimetry and 8 × 8 Posterior Pole Analysis of OCT
title_full_unstemmed Macular Structure–Function Relationships of All Retinal Layers in Primary Open-Angle Glaucoma Assessed by Microperimetry and 8 × 8 Posterior Pole Analysis of OCT
title_sort macular structure–function relationships of all retinal layers in primary open-angle glaucoma assessed by microperimetry and 8 × 8 posterior pole analysis of oct
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/383f95c4f65544b2a9e790129cf124ac
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